In a floor panel provided with upper and lower members which have concave spaces and side surfaces having heights and are formed as a box shape, and structured such that the upper and lower members are combined up and down so as to communicate the respective concave spaces so as to form an internal space in an inner portion, the floor panel has a joint portion in which height leading end portions of the side surfaces of the upper and lower members are folded so as to enwrap each other so as to be connected, and the joint portion is arranged in a height midstream portion of the side surface of the floor panel, and is arranged at a position which is retreated to an inner side of the floor panel in relation to the side surface in both height end sides of the floor panel.

A double-floor member includes at least one first guide rail (24) that is fixed to an upper surface and at least one first connecting member (27) that is movable in the longitudinal direction of the first guide rail (24) and is engaged with the first guide rail (24) so as not to be separated upward from the first guide rail (24).

Disclosed is the redirection of air flow in a sub-plenum using a multi-directional plume that is attached to the bottom surface of an air-grate floor panel. The air-grate floor panel 102 has openings which allow redirected air to flow in an upward direction to cool computer equipment, including servers. The multi-directional plume has a series of vanes that are disposed in various different directions to deflect a flow of air conditioning air through a sub-plenum in a vertical direction to flow through openings in the air-grate floor panel. Since the multi-directional plume is capable of redirecting air from various different directions in the sub-plenum, the air-grate floor panels do not have to be repositioned to capture air flow from any particular direction.

A method for operating at least one intelligent floor element includes receiving at least one planned movement of at least one object on at least one floor element, determining at least one safety area for each object in its environment on at least one floor element, checking overlaps of safety areas, and outputting a signal with respect to the safety area with the aid of activatable markings on at least one floor element.

An apparatus and methods lock together pavers on a roof deck to reduce uplift pressure and increase stability and strength in a variety of environmental conditions. More specifically, a paver lock apparatus is placed in grooves on the top side of a multiple of pavers and locked to a stationary object, such as the roof or a pedestal placed on the roof underneath the deck. Roof pavers are manufactured with grooves on the paver surface to hold the paver lock apparatus. The pavers are loose laid on paver pedestals and the paver lock apparatus is laid into the grooves of multiple adjacent pavers and locked into place by connecting the paver lock apparatus to the paver pedestal.

A peripheral stabilizing system for elevated flooring surfaces that is configured to resist uplift forces acting against the elevated flooring surface thereby reducing the likelihood of dislodged surface tiles and the like. Broadly, the disclosed system includes a support structure disposed over a fixed surface (e.g., roof deck or the like), a plurality of surface tiles appropriately laid over the support structure, and one or more restraint apparatuses (e.g., support ledgers) that are positionable adjacent the outer periphery of the flooring surface. Each restraint apparatus includes a mounting portion that is securable to a wall (e.g., parapet) and a restraint portion positionable over a portion of the elevated flooring surface adjacent the outer periphery for restricting movement of the flooring surface in a direction away from the fixed surface.

A peripheral stabilizing system for elevated flooring surfaces that is configured to resist uplift forces acting against the elevated flooring surface thereby reducing the likelihood of dislodged surface tiles and the like. Broadly, the disclosed system includes a support structure disposed over a fixed surface (e.g., roof deck or the like), a plurality of surface tiles appropriately laid over the support structure, and one or more restraint apparatuses (e.g., support ledgers) that are positionable adjacent the outer periphery of the flooring surface. Each restraint apparatus includes a mounting portion that is securable to a wall (e.g., parapet) and a restraint portion positionable over a portion of the elevated flooring surface adjacent the outer periphery for restricting movement of the flooring surface in a direction away from the fixed surface.

The system for removably securing slats juxtaposed to form a deck, for example for a terrace, includes fasteners disposed in rows on level floor or joist or beam structure supports oriented perpendicular to the axis of the slats. The fasteners have a device for securing the supports to the slats. A plurality of impermeable channels is disposed parallel for a level floor, or at a rate of one impermeable channel for each joist or beam support. The top surface of the support, a device for removable securing and a device for positioning provided on the profiled section are covered. The fasteners are made of a flexible elastic material, and the device for positioning allows clearance in a direction of an axis of the channel.

A raised floor element for a raised floor includes an upper floor panel with a limited free space configured to adjoin the upper floor panel to a bottom, at least two functional elements, and at least one connecting element configured to connect to at least one further raised floor element. At least one of the functional elements is configured to be actuated by a control device.

A floor system for detecting refrigerant includes one or more tiles. Each tile includes a tile body having a cavity formed therein and a grille element positioned within the cavity of the tile body. The grille element is configured to receive air from at least one of above or below the tile body. Each tile further includes a control assembly associated with the grille element. The control assembly includes a refrigerant sensing device to detect refrigerant in the received air. The control assembly is configured to output a signal indicating a detection of refrigerant.